A few problems on waves that i with

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SUMMARY

This discussion focuses on solving various wave and sound problems, including calculating the length of a closed organ pipe with a fifth harmonic frequency of 1230Hz, determining sound intensity levels, and analyzing wave displacement equations. Key calculations involve the frequency of pendulum swings, the relationship between sound intensity and decibels, and the speed of light and sound in different mediums. The problems also explore gravitational strength using pendulum mechanics, emphasizing the application of physics principles in practical scenarios.

PREREQUISITES
  • Understanding of harmonic frequencies in closed organ pipes
  • Knowledge of sound intensity and decibel levels
  • Familiarity with wave displacement equations and their properties
  • Basic principles of pendulum motion and gravitational acceleration
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  • Calculate the length of a closed organ pipe using the formula for harmonics
  • Explore the relationship between sound intensity and decibels
  • Analyze wave equations to determine wavelength and frequency
  • Investigate the effects of medium on the speed of sound and light
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Students and educators in physics, sound engineers, and anyone interested in wave mechanics and sound propagation principles.

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I need some help getting started on a few wave and sound problems.

1.)A closed organ pipe has a fifth harmonic frequency of 1230Hz at 20 degrees celsius
a) What is the length of the organ tube?
b) What is the first harmonic of the pipe?
c) If one end of the pipe were opened, what would be the first harmonic?

2.) Consider a sound intensity of 16 x 10 ^-8 W/m^2. At how many times the original distance would the intensity level decrease by 12 db?

3.) What is the wavelength (in meters) of a wave whose displacement is given by y=o.5 sin (0.20x + 120t), where x and y are in meters and t in seconds?

Tarzan swings back and forth on a long vine. His friend Jane notices 30 swings in 2.4 minutes.
a) the frequency of the swing is?
b)the vine's length is?

4.) Middle C has a frequency of 262Hz. What is the frequency of C an octave higher?

5.) The distance from the moon to the Earth is 3.8 x 10^5 km.
a) How long does it take a light beam to travel this distance?
b) If instead of a vacuum, the space between had air at STP, how long would it take for sound to travel that same distance?

6.)Spock has landed on a newly discovered planet and is instructed to determine its gravitational strength. He constructs a simple pendulum with a length of 700mm and observes 20 swings in one minute and 16.7 seconds. What does he deduce the "acceleration of gravity" to be from this?

Thanks for any help starting these!
 
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SJC25 said:
I need some help getting started on a few wave and sound problems.

1.)A closed organ pipe has a fifth harmonic frequency of 1230Hz at 20 degrees celsius
a) What is the length of the organ tube?
b) What is the first harmonic of the pipe?
c) If one end of the pipe were opened, what would be the first harmonic?
A closed organ pipe has two closed ends. An open organ pipe has one open end. The closed end means that this has to be a node or place of 0 amplitude for the standing wave. The open end means that this has to be a point of maximum amplitude. Find the length of tube in which a resonating (standing) waveform will fit using these conditions. The first harmonic is simply the longest standing wave that fits these conditions.

2.) Consider a sound intensity of 16 x 10 ^-8 W/m^2. At how many times the original distance would the intensity level decrease by 12 db?
What is the relationship between intensity and decibels? Look it up and plug it in.

3.) What is the wavelength (in meters) of a wave whose displacement is given by y=o.5 sin (0.20x + 120t), where x and y are in meters and t in seconds?
What is the distance between two sucessive values for x where y = 0 (for a fixed time)? What is the frequency of this wave (ie. what is the time between two successive values for t where y =0 (fixed x)?

Tarzan swings back and forth on a long vine. His friend Jane notices 30 swings in 2.4 minutes.
a) the frequency of the swing is?
b)the vine's length is?
This is just a pendulum. What is the formula for a pendulum in terms of length and period? Look it up and plug it in.

4.) Middle C has a frequency of 262Hz. What is the frequency of C an octave higher?
What is an octave in terms of frequency ratio?

5.) The distance from the moon to the Earth is 3.8 x 10^5 km.
a) How long does it take a light beam to travel this distance?
b) If instead of a vacuum, the space between had air at STP, how long would it take for sound to travel that same distance?
What is the speed of light in space? in air? (check index of refraction in air and use Snell's law).

6.)Spock has landed on a newly discovered planet and is instructed to determine its gravitational strength. He constructs a simple pendulum with a length of 700mm and observes 20 swings in one minute and 16.7 seconds. What does he deduce the "acceleration of gravity" to be from this?
Again just a pendulum problem. Look up the formula for pendulum period in terms of length and solve for 'g'. That is the acceleration due to gravity on the new planet.
 
SJC25 said:
6.)Spock has landed on a newly discovered planet and is instructed to determine its gravitational strength. He constructs a simple pendulum with a length of 700mm and observes 20 swings in one minute and 16.7 seconds. What does he deduce the "acceleration of gravity" to be from this?

What happened to Spock's "gravitometer" with "Einsteinian compensators" ? :smile:
 

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